Influence of Fiber Composition and Grating Fabrication on the Radiation Sensitivity of Fiber Bragg Gratings

被引:0
|
作者
Henschel, Henning [1 ]
Hoeffgen, Stefan K. [1 ]
Krebber, Katerina [2 ]
Kuhnhenn, Jochen [1 ]
Weinand, Udo [1 ]
机构
[1] Fraunhofer Inst Technol Trend Anal INT, Appelsgarten 2, D-53879 Euskirchen, Germany
[2] Fed Inst Mat Res & Testing, D-12205 Berlin, Germany
来源
RADECS 2007: PROCEEDINGS OF THE 9TH EUROPEAN CONFERENCE ON RADIATION AND ITS EFFECTS ON COMPONENTS AND SYSTEMS | 2007年
关键词
Fiber Bragg gratings; gamma radiation; optical fiber sensor; radiation effects;
D O I
暂无
中图分类号
TM [电工技术]; TN [电子技术、通信技术];
学科分类号
0808 ; 0809 ;
摘要
The radiation-induced Bragg wavelength shift (BWS) was measured with type 1 gratings made of 12 fibers with very different composition, i.e. of fibers with an extremely different radiation-induced attenuation. With two of the fibers fabrication parameters like laser intensity, hydrogen loading, and annealing conditions after grating inscription were varied. With another fiber type I and type II gratings were made by a completely different process. With gratings made under identical conditions of the twelve fibers the radiation-induced BWS only varied by about a factor of three. Varying the fabrication parameters led to BWS differences up to nearly a factor of ten.
引用
收藏
页码:478 / +
页数:2
相关论文
共 50 条
  • [31] Bragg peak shifts of fiber Bragg gratings in radiation environment
    Fujita, K
    Kimura, A
    Nakazawa, M
    Takahashi, H
    FIBER OPTIC SENSOR TECHNOLOGY II, 2001, 4204 : 184 - 191
  • [32] Correction of systematic errors in the fabrication of fiber Bragg gratings
    Buryak, AV
    Stepanov, DY
    OPTICS LETTERS, 2002, 27 (13) : 1099 - 1101
  • [33] Effect of spherical aberration on fabrication of fiber bragg gratings
    Department of Advanced Material Science, Faculty of Engineering, Kagawa University, 2217-20 Hayashi-cho, Takamatsu 761-0396, Japan
    不详
    不详
    不详
    Japanese Journal of Applied Physics, Part 1: Regular Papers and Short Notes and Review Papers, 2006, 45 (6 A): : 5035 - 5038
  • [34] Double phase mask fabrication of fiber Bragg gratings
    Peral, E
    Lee, R
    Provenzano, D
    Yariv, A
    BRAGG GRATINGS, PHOTOSENSITIVITY AND POLING IN GLASS WAVEGUIDES, 2000, 33 : 141 - 143
  • [35] Effect of spherical aberration on fabrication of fiber Bragg gratings
    Suzaki, Y
    Mohri, JP
    Nakayama, K
    Ando, M
    Sakamoto, K
    Yamauchi, M
    Mizutani, Y
    Yokouchi, T
    Ejima, S
    JAPANESE JOURNAL OF APPLIED PHYSICS PART 1-REGULAR PAPERS BRIEF COMMUNICATIONS & REVIEW PAPERS, 2006, 45 (6A): : 5035 - 5038
  • [36] Numerical optimization of the fiber Bragg gratings with fabrication constraints
    Sheng, YL
    OuYang, Y
    Tremblay, G
    Gillet, JN
    Beaudroin, Y
    Bernier, M
    Paul-Hus, G
    ICO20: OPTICAL COMMUNICATION, 2006, 6025
  • [37] Recent developments in the fabrication of infrared fiber Bragg gratings
    Busse, Lynda
    Florea, Catalin
    Shaw, Brandon
    Sanghera, Jas
    Vinh Nguyen
    Chin, Geoff
    Aggarwal, Ishwar
    OPTICAL COMPONENTS AND MATERIALS IX, 2012, 8257
  • [38] On the fabrication, property, and application of optical fiber Bragg gratings
    Jiang, Yi
    Huang, Shanglian
    Yadian Yu Shengguang/Piezoelectrics and Acoustooptics, 1995, 17 (01): : 18 - 22
  • [39] Fabrication of High Reflection UVWritten Fiber Bragg Gratings
    CHEN Genxiang
    JIAN Shuisheng
    GE Huang
    YANG Ling
    LI Xun
    WANG Wei( Northern Jiaotong University
    ChineseJournalofLasers, 1997, (02) : 185 - 188
  • [40] Refractive Index Sensitivity of Fiber Bragg Grating Inscribed in a Multimode Fiber
    Kuhne, Jean Filipe
    de Oliveira, Valmir
    Kalinowski, Hypolito Jose
    Kamikawachi, Ricardo Canute
    2015 SBMO/IEEE MTT-S INTERNATIONAL MICROWAVE AND OPTOELECTRONICS CONFERENCE (IMOC), 2015,
12345